/*******************************************************************************
 * Copyright IBM Corp. and others 2016
 *
 * This program and the accompanying materials are made available under
 * the terms of the Eclipse Public License 2.0 which accompanies this
 * distribution and is available at https://www.eclipse.org/legal/epl-2.0/
 * or the Apache License, Version 2.0 which accompanies this distribution and
 * is available at https://www.apache.org/licenses/LICENSE-2.0.
 *
 * This Source Code may also be made available under the following
 * Secondary Licenses when the conditions for such availability set
 * forth in the Eclipse Public License, v. 2.0 are satisfied: GNU
 * General Public License, version 2 with the GNU Classpath
 * Exception [1] and GNU General Public License, version 2 with the
 * OpenJDK Assembly Exception [2].
 *
 * [1] https://www.gnu.org/software/classpath/license.html
 * [2] https://openjdk.org/legal/assembly-exception.html
 *
 * SPDX-License-Identifier: EPL-2.0 OR Apache-2.0 OR GPL-2.0-only WITH Classpath-exception-2.0 OR GPL-2.0-only WITH OpenJDK-assembly-exception-1.0
 *******************************************************************************/

#include "omrsignal_context.h"
#include "omrport.h"

#include <unistd.h>

void
fillInUnixSignalInfo(struct OMRPortLibrary *portLibrary, void *contextInfo, struct OMRUnixSignalInfo *signalInfo)
{
	signalInfo->platformSignalInfo.context = (ucontext_t *)contextInfo;
	/* module info is filled on demand */
}

uint32_t
infoForSignal(struct OMRPortLibrary *portLibrary, OMRUnixSignalInfo *info, int32_t index, const char **name, void **value)
{
	switch (index) {
	case OMRPORT_SIG_SIGNAL_TYPE:
	case 0:
		*name = "J9Generic_Signal_Number";
		*value = &info->portLibrarySignalType;
		return OMRPORT_SIG_VALUE_32;

	case OMRPORT_SIG_SIGNAL_PLATFORM_SIGNAL_TYPE:
	case 1:
		*name = "Signal_Number";
		*value = &info->sigInfo->si_signo;
		return OMRPORT_SIG_VALUE_32;

	case OMRPORT_SIG_SIGNAL_ERROR_VALUE:
	case 2:
		*name = "Error_Value";
		*value = &info->sigInfo->si_errno;
		return OMRPORT_SIG_VALUE_32;

	case OMRPORT_SIG_SIGNAL_CODE:
	case 3:
		*name = "Signal_Code";
		*value = &info->sigInfo->si_code;
		return OMRPORT_SIG_VALUE_32;

	case OMRPORT_SIG_SIGNAL_HANDLER:
	case 4:
		*name = "Handler1";
		*value = &info->handlerAddress;
		return OMRPORT_SIG_VALUE_ADDRESS;

	case 5:
		*name = "Handler2";
		*value = &info->handlerAddress2;
		return OMRPORT_SIG_VALUE_ADDRESS;

	case OMRPORT_SIG_SIGNAL_INACCESSIBLE_ADDRESS:
	case 6:
		/* si_code > 0 indicates that the signal was generated by the kernel */
		if (0 < info->sigInfo->si_code) {
			if ((SIGBUS == info->sigInfo->si_signo) || (SIGSEGV == info->sigInfo->si_signo)) {
				*name = "InaccessibleAddress";
				*value = &info->sigInfo->si_addr;
				return OMRPORT_SIG_VALUE_ADDRESS;
			}
		}
		*name = "";
		return OMRPORT_SIG_VALUE_UNDEFINED;

	case OMRPORT_SIG_SENDER_PID:
	case 7:
		if ((NULL != info) && (NULL != info->sigInfo)) {
			*name = "Sending_Process";
			*value = &info->sigInfo->si_pid;
			return (sizeof(info->sigInfo->si_pid) == sizeof(uint32_t))
				? OMRPORT_SIG_VALUE_32
				: OMRPORT_SIG_VALUE_64;
		}
		return OMRPORT_SIG_VALUE_UNDEFINED;

	default:
		*name = "";
		return OMRPORT_SIG_VALUE_UNDEFINED;
	}
}

uint32_t
infoForFPR(struct OMRPortLibrary *portLibrary, OMRUnixSignalInfo *info, int32_t index, const char **name, void **value)
{
#if defined(OMR_ARCH_X86)
	mcontext_t *context = (mcontext_t *)&info->platformSignalInfo.context->uc_mcontext;
	_STRUCT_X86_FLOAT_STATE64 *floatState = &(*context)->__fs;

	switch (index) {
	case 0:
		*name = "XMM0";
		*value = &floatState->__fpu_xmm0;
		return OMRPORT_SIG_VALUE_FLOAT_64;
	case 1:
		*name = "XMM1";
		*value = &floatState->__fpu_xmm1;
		return OMRPORT_SIG_VALUE_FLOAT_64;
	case 2:
		*name = "XMM2";
		*value = &floatState->__fpu_xmm2;
		return OMRPORT_SIG_VALUE_FLOAT_64;
	case 3:
		*name = "XMM3";
		*value = &floatState->__fpu_xmm3;
		return OMRPORT_SIG_VALUE_FLOAT_64;
	case 4:
		*name = "XMM4";
		*value = &floatState->__fpu_xmm4;
		return OMRPORT_SIG_VALUE_FLOAT_64;
	case 5:
		*name = "XMM5";
		*value = &floatState->__fpu_xmm5;
		return OMRPORT_SIG_VALUE_FLOAT_64;
	case 6:
		*name = "XMM6";
		*value = &floatState->__fpu_xmm6;
		return OMRPORT_SIG_VALUE_FLOAT_64;
	case 7:
		*name = "XMM7";
		*value = &floatState->__fpu_xmm7;
		return OMRPORT_SIG_VALUE_FLOAT_64;
	case 8:
		*name = "XMM8";
		*value = &floatState->__fpu_xmm8;
		return OMRPORT_SIG_VALUE_FLOAT_64;
	case 9:
		*name = "XMM9";
		*value = &floatState->__fpu_xmm9;
		return OMRPORT_SIG_VALUE_FLOAT_64;
	case 10:
		*name = "XMM10";
		*value = &floatState->__fpu_xmm10;
		return OMRPORT_SIG_VALUE_FLOAT_64;
	case 11:
		*name = "XMM11";
		*value = &floatState->__fpu_xmm11;
		return OMRPORT_SIG_VALUE_FLOAT_64;
	case 12:
		*name = "XMM12";
		*value = &floatState->__fpu_xmm12;
		return OMRPORT_SIG_VALUE_FLOAT_64;
	case 13:
		*name = "XMM13";
		*value = &floatState->__fpu_xmm13;
		return OMRPORT_SIG_VALUE_FLOAT_64;
	case 14:
		*name = "XMM14";
		*value = &floatState->__fpu_xmm14;
		return OMRPORT_SIG_VALUE_FLOAT_64;
	case 15:
		*name = "XMM15";
		*value = &floatState->__fpu_xmm15;
		return OMRPORT_SIG_VALUE_FLOAT_64;
	default:
		*name = "";
		return OMRPORT_SIG_VALUE_UNDEFINED;
	}
#elif defined(OMR_ARCH_AARCH64) /* defined(OMR_ARCH_X86) */
	mcontext_t *context = (mcontext_t *)&info->platformSignalInfo.context->uc_mcontext;
	_STRUCT_ARM_NEON_STATE64 *neonState = &(*context)->__ns;

	static const char *fpr_names[] = {
		"v0", "v1", "v2", "v3", "v4", "v5", "v6", "v7",
		"v8", "v9", "v10", "v11", "v12", "v13", "v14", "v15",
		"v16", "v17", "v18", "v19", "v20", "v21", "v22", "v23",
		"v24", "v25", "v26", "v27", "v28", "v29", "v30", "v31"
	};

	if ((0 <= index) && (index < (sizeof(fpr_names) / sizeof(fpr_names[0])))) {
		*name = fpr_names[index];
		*value = &neonState->__v[index];
		return OMRPORT_SIG_VALUE_FLOAT_64;
	} else {
		*name = "";
		return OMRPORT_SIG_VALUE_UNDEFINED;
	}
#else /* defined(OMR_ARCH_X86) */
#error Unsupported processor
#endif /* defined(OMR_ARCH_X86) */
}

uint32_t
infoForGPR(struct OMRPortLibrary *portLibrary, OMRUnixSignalInfo *info, int32_t index, const char **name, void **value)
{
#if defined(OMR_ARCH_X86)
	mcontext_t *context = (mcontext_t *)&info->platformSignalInfo.context->uc_mcontext;
	_STRUCT_X86_THREAD_STATE64 *threadState = &(*context)->__ss;

	switch (index) {
	case OMRPORT_SIG_GPR_AMD64_RDI:
	case 0:
		*name = "RDI";
		*value = &threadState->__rdi;
		return OMRPORT_SIG_VALUE_ADDRESS;
	case OMRPORT_SIG_GPR_AMD64_RSI:
	case 1:
		*name = "RSI";
		*value = &threadState->__rsi;
		return OMRPORT_SIG_VALUE_ADDRESS;
	case OMRPORT_SIG_GPR_AMD64_RAX:
	case 2:
		*name = "RAX";
		*value = &threadState->__rax;
		return OMRPORT_SIG_VALUE_ADDRESS;
	case OMRPORT_SIG_GPR_AMD64_RBX:
	case 3:
		*name = "RBX";
		*value = &threadState->__rbx;
		return OMRPORT_SIG_VALUE_ADDRESS;
	case OMRPORT_SIG_GPR_AMD64_RCX:
	case 4:
		*name = "RCX";
		*value = &threadState->__rcx;
		return OMRPORT_SIG_VALUE_ADDRESS;
	case OMRPORT_SIG_GPR_AMD64_RDX:
	case 5:
		*name = "RDX";
		*value = &threadState->__rdx;
		return OMRPORT_SIG_VALUE_ADDRESS;
	case OMRPORT_SIG_GPR_AMD64_R8:
	case 6:
		*name = "R8";
		*value = &threadState->__r8;
		return OMRPORT_SIG_VALUE_ADDRESS;
	case OMRPORT_SIG_GPR_AMD64_R9:
	case 7:
		*name = "R9";
		*value = &threadState->__r9;
		return OMRPORT_SIG_VALUE_ADDRESS;
	case OMRPORT_SIG_GPR_AMD64_R10:
	case 8:
		*name = "R10";
		*value = &threadState->__r10;
		return OMRPORT_SIG_VALUE_ADDRESS;
	case OMRPORT_SIG_GPR_AMD64_R11:
	case 9:
		*name = "R11";
		*value = &threadState->__r11;
		return OMRPORT_SIG_VALUE_ADDRESS;
	case OMRPORT_SIG_GPR_AMD64_R12:
	case 10:
		*name = "R12";
		*value = &threadState->__r12;
		return OMRPORT_SIG_VALUE_ADDRESS;
	case OMRPORT_SIG_GPR_AMD64_R13:
	case 11:
		*name = "R13";
		*value = &threadState->__r13;
		return OMRPORT_SIG_VALUE_ADDRESS;
	case OMRPORT_SIG_GPR_AMD64_R14:
	case 12:
		*name = "R14";
		*value = &threadState->__r14;
		return OMRPORT_SIG_VALUE_ADDRESS;
	case OMRPORT_SIG_GPR_AMD64_R15:
	case 13:
		*name = "R15";
		*value = &threadState->__r15;
		return OMRPORT_SIG_VALUE_ADDRESS;
	default:
		*name = "";
		return OMRPORT_SIG_VALUE_UNDEFINED;
	}
#elif defined(OMR_ARCH_AARCH64) /* defined(OMR_ARCH_X86) */
	mcontext_t *context = (mcontext_t *)&info->platformSignalInfo.context->uc_mcontext;
	_STRUCT_ARM_THREAD_STATE64 *threadState = &(*context)->__ss;

	static const char *gpr_names[] = {
		"x0", "x1", "x2", "x3", "x4",  "x5", "x6", "x7",
		"x8", "x9", "x10", "x11", "x12", "x13", "x14", "x15",
		"x16", "x17", "x18", "x19", "x20", "x21", "x22", "x23",
		"x24", "x25", "x26", "x27", "x28"
	};

	if ((0 <= index) && (index < (sizeof(gpr_names) / sizeof(gpr_names[0])))) {
		*name = gpr_names[index];
		*value = &threadState->__x[index];
		return OMRPORT_SIG_VALUE_ADDRESS;
	}
	switch (index) {
	case 29:
		*name = "x29(FP)";
		*value = &threadState->__fp;
		return OMRPORT_SIG_VALUE_ADDRESS;
	case 30:
		*name = "x30(LR)";
		*value = &threadState->__lr;
		return OMRPORT_SIG_VALUE_ADDRESS;
	case 31:
		*name = "x31(SP)";
		*value = &threadState->__sp;
		return OMRPORT_SIG_VALUE_ADDRESS;
	default:
		*name = "";
		return OMRPORT_SIG_VALUE_UNDEFINED;
	}
#else /* defined(OMR_ARCH_X86) */
#error Unsupported processor
#endif /* defined(OMR_ARCH_X86) */
}

uint32_t
infoForControl(struct OMRPortLibrary *portLibrary, OMRUnixSignalInfo *info, int32_t index, const char **name, void **value)
{
#if defined(OMR_ARCH_X86)
	mcontext_t *context = (mcontext_t *)&info->platformSignalInfo.context->uc_mcontext;
	_STRUCT_X86_THREAD_STATE64 *threadState = &(*context)->__ss;
	_STRUCT_X86_EXCEPTION_STATE64 *exceptionState = &(*context)->__es;

	switch (index) {
	case OMRPORT_SIG_CONTROL_PC:
	case 0:
		*name = "RIP";
		*value = (void *)&(threadState->__rip);
		return OMRPORT_SIG_VALUE_ADDRESS;
	case 1:
		*name = "GS";
		*value = (void *)&(threadState->__gs);
		return OMRPORT_SIG_VALUE_16;
	case 2:
		*name = "FS";
		*value = (void *)&(threadState->__fs);
		return OMRPORT_SIG_VALUE_16;
	case OMRPORT_SIG_CONTROL_SP:
	case 3:
		*name = "RSP";
		*value = (void *)&(threadState->__rsp);
		return OMRPORT_SIG_VALUE_ADDRESS;
	case OMRPORT_SIG_CONTROL_X86_EFLAGS:
	case 4:
		*name = "RFlags";
		*value = (void *)&(threadState->__rflags);
		return OMRPORT_SIG_VALUE_ADDRESS;
	case 5:
		*name = "CS";
		*value = (void *)&(threadState->__cs);
		return OMRPORT_SIG_VALUE_16;
	case OMRPORT_SIG_CONTROL_BP:
	case 6:
		*name = "RBP";
		*value = &threadState->__rbp;
		return OMRPORT_SIG_VALUE_ADDRESS;
	case 7:
		*name = "ERR";
		*value = &exceptionState->__err;
		return OMRPORT_SIG_VALUE_ADDRESS;
	case 8:
		*name = "TRAPNO";
		*value = &exceptionState->__trapno;
		return OMRPORT_SIG_VALUE_ADDRESS;
	case 9:
		*name = "CPU";
		*value = &exceptionState->__cpu;
		return OMRPORT_SIG_VALUE_ADDRESS;
	case 10:
		*name = "FAULTVADDR";
		*value = &exceptionState->__faultvaddr;
		return OMRPORT_SIG_VALUE_ADDRESS;
	default:
		*name = "";
		return OMRPORT_SIG_VALUE_UNDEFINED;
	}
#elif defined(OMR_ARCH_AARCH64) /* defined(OMR_ARCH_X86) */
	mcontext_t *context = (mcontext_t *)&info->platformSignalInfo.context->uc_mcontext;
	_STRUCT_ARM_THREAD_STATE64 *threadState = &(*context)->__ss;

	switch (index) {
	case OMRPORT_SIG_CONTROL_PC:
	case 0:
		*name = "PC";
		*value = &threadState->__pc;
		return OMRPORT_SIG_VALUE_ADDRESS;
	case OMRPORT_SIG_CONTROL_SP:
	case 1:
		*name = "SP";
		*value = &threadState->__sp;
		return OMRPORT_SIG_VALUE_ADDRESS;
	default:
		*name = "";
		return OMRPORT_SIG_VALUE_UNDEFINED;
	}
#else /* defined(OMR_ARCH_X86) */
#error Unsupported processor
#endif /* defined(OMR_ARCH_X86) */
}

uint32_t
infoForModule(struct OMRPortLibrary *portLibrary, OMRUnixSignalInfo *info, int32_t index, const char **name, void **value)
{
#if defined(OMR_ARCH_X86) || defined(OMR_ARCH_AARCH64)
	Dl_info *dl_info = &(info->platformSignalInfo.dl_info);
	mcontext_t *context = (mcontext_t *)&info->platformSignalInfo.context->uc_mcontext;
#if defined(OMR_ARCH_X86)
	int dl_result = dladdr((void *)(*context)->__ss.__rip, dl_info);
#else /* defined(OMR_ARCH_X86) */
	int dl_result = dladdr((void *)(*context)->__ss.__pc, dl_info);
#endif /* defined(OMR_ARCH_X86) */

	switch (index) {
	case OMRPORT_SIG_MODULE_NAME:
	case 0:
		*name = "Module";
		if (0 != dl_result) {
			*value = (void *)(dl_info->dli_fname);
			return OMRPORT_SIG_VALUE_STRING;
		}
		return OMRPORT_SIG_VALUE_UNDEFINED;
	case 1:
		*name = "Module_base_address";
		if (0 != dl_result) {
			*value = (void *)&(dl_info->dli_fbase);
			return OMRPORT_SIG_VALUE_ADDRESS;
		}
		return OMRPORT_SIG_VALUE_UNDEFINED;
	case 2:
		*name = "Symbol";
		if (0 != dl_result) {
			if (dl_info->dli_sname != NULL) {
				*value = (void *)(dl_info->dli_sname);
				return OMRPORT_SIG_VALUE_STRING;
			}
		}
		return OMRPORT_SIG_VALUE_UNDEFINED;
	case 3:
		*name = "Symbol_address";
		if (0 != dl_result) {
			*value = (void *)&(dl_info->dli_saddr);
			return OMRPORT_SIG_VALUE_ADDRESS;
		}
		return OMRPORT_SIG_VALUE_UNDEFINED;
	default:
		*name = "";
		return OMRPORT_SIG_VALUE_UNDEFINED;
	}
#else /* defined(OMR_ARCH_X86) || defined(OMR_ARCH_AARCH64) */
#error Unsupported processor
#endif /* defined(OMR_ARCH_X86) || defined(OMR_ARCH_AARCH64) */
}
